Guide to Deep Brain Stimulation Therapy

Transcription

1 Parkinson s Disease: Guide to Deep Brain Stimulation Therapy By: Michael S. Okun, MD Medical Director, National Parkinson Foundation Center of Excellence Co-Director, Center for Movement Disorders and Neurorestoration University of Florida, Gainesville Pamela R. Zeilman, MSN, ANP-BC Center for Movement Disorders and Neurorestoration University of Florida, Gainesville Your generosity makes this publication possible The National Parkinson Foundation is proud to provide these educational materials at no cost to individuals around the globe. If you find these materials helpful, please consider a gift so that we may continue to fight Parkinson s on all fronts: funding innovative research, providing support services, and offering educational materials such as this publication. Thank you for your support. Donate online: Donate by mail to: National Parkinson Foundation Gift Processing Center P.O. Box 5018 Hagerstown, MD Donate by phone: Tax ID:

2 Disclaimer: The information contained in this publication is provided for informational and educational purposes only and should not be construed to be a diagnosis, treatment, regimen, or any other healthcare advice or instruction. The reader should seek his or her own medical advice, which this publication is not intended to replace or supplement. NPF disclaims any responsibility and liability of any kind in connection with the reader s use of the information contained herein. The National Parkinson Foundation has not examined, reviewed or tested any product, device, or information contained in this booklet, nor does the National Parkinson Foundation endorse or represent any product, device or company listed in this booklet. Second Edition

6 Chapter 1 Introduction to Surgical Therapies for Parkinson s Disease Parkinson s disease (PD) affects an estimated one million Americans including men and women of all ages and races, though it is slightly more common in men. The cause of PD is not yet known, and currently a cure does not exist. There are, however, many excellent symptomatic treatments for PD. Medications, exercise, nutrition, holistic approaches, and surgical treatment all have the potential to reduce symptoms and to improve quality of life. Common symptoms of PD include shaking (tremor), slowness of movement (bradykinesia), muscle stiffness (rigidity), and difficulty with balance (postural instability). These are referred to as the motor symptoms of PD. There are also many non-motor symptoms including most prominently depression, anxiety, apathy, fatigue, and sexual dysfunction. During the initial stages of PD (i.e. the first several years after a diagnosis), medications typically control symptoms in the majority of patients. As the disease progresses, however, individuals may need to take more medications, increase the dosages, and, in many cases, take their medications more frequently. As disease duration increases, people with PD may notice that throughout a typical day they will experience periods of adequate symptom control ( on time ), periods where symptoms are much more noticeable ( off time ), and periods where peak medication levels (usually an hour after taking a medication dose) produce involuntary movements. These involuntary movements are referred to as dyskinesia. When individuals change from one of these three states to another, they are said to have motor fluctuations. The aim of this book is to describe a type of surgical treatment that can be utilized to reduce PD symptoms in a subset of carefully selected individuals with a specific symptom or symptoms potentially responsive to this type of therapy. The treatment is known as deep brain stimulation (DBS). DBS is a proven and effective surgery that can be applied to treat some, but not all, of the disabling symptoms of PD. There are several other surgeries that have been utilized to treat the symptoms of PD, and these include thalamotomy, pallidotomy, and subthalamotomy. We will discuss each of these alternative techniques, all of which rely on making a lesion in the brain, in the pages that follow. When applied with the appropriate level of expertise, these therapies may also be options for individuals with PD. Pallidotomy, thalamotomy, and subthalamotomy Pallidotomy, thalamotomy, and subthalamotomy are types of surgical procedures in which a tiny heated probe is inserted into a precise region of the brain to destroy tissue. When the region known as the globus pallidus internus is lesioned, we refer to the procedure as a pallidotomy. Similarly, when the part of the brain called the thalamus is treated, we call it a thalamotomy. And when the subthalamic nucleus is lesioned, we refer to the procedure as a subthalamotomy. Of these three procedures, pallidotomy has been the one most widely applied over the last several decades to help relieve symptoms of PD. 4

7 A pallidotomy lesion has the potential to improve tremor, rigidity, bradykinesia, motor fluctuations, and, in a few special cases, walking and balance. Pallidotomies are only effective against PD symptoms that respond to levodopa (Sinemet), with the exceptions of tremor and dyskinesia. Tremor and dyskinesia may potentially respond to pallidotomy even if medications are not effective. Pallidotomy has its advantages over DBS. These advantages include: no implanted wires or batteries, and no need for electronic programming sessions to fine-tune the parameters. Also, there are no hardware malfunctions to deal with, and once the initial surgical procedure is done, there is no risk of infection from an implanted device. For those who have difficulty travelling for the DBS programming (from another region or country), or in cases when DBS is too expensive, or not available, pallidotomy may be a good choice. Pallidotomy can be as effective as DBS in treating the symptoms of PD, but the lesion must be placed in exactly the right spot. Recent studies have revealed that the benefits of pallidotomy can be long-lasting. Unlike DBS, pallidotomy should not be performed on both sides of the brain, and this is one major limitation of this surgery. Performing two pallidotomies can lead to permanent speech, swallowing, and cognitive problems. Patients with an existing pallidotomy who require a second surgery will usually have a DBS placed on the opposite side of the brain. Thalamotomy is a procedure that is rarely performed in PD because it is usually only effective for tremor. Subthalamotomy, however, has been gaining popularity as this procedure can provide the same types of benefits as pallidotomy. Many medical groups have performed the surgery safely on both sides of the brain. Subthalamotomy is the PD procedure of choice in Cuba, and research suggests that it is very effective. A few cases of subthalamotomy do, however, develop a side effect called hemiballism (uncontrollable flinging of one arm and/or leg), although in most cases it is a transient adverse effect. DBS DBS differs from pallidotomy, thalamotomy, and subthalamotomy in that it does not permanently destroy brain tissue. The procedure is entirely reversible, usually with minimal damage to any brain tissue. DBS involves the surgical placement of a thin wire (with four electrical contacts at its tip) into a very specific and carefully selected brain region. The three main parts of the brain where the DBS lead (pronounced leed ) can be placed are the globus pallidus internus, the thalamus, and the subthalamic nucleus. The DBS lead is connected to a pacemaker-like device that is implanted in the chest region below the collarbone. This device, called the neurostimulator or implantable pulse generator (IPG), contains the battery and computer source that generates the electrical pulses that will be delivered via the lead to the brain. The system can be turned on or off by the patient or the clinician. In addition, the clinician can select which one or more of the four electrodes on each brain lead that are to be activated to provide electrical stimulation. This process allows electrical stimulation to be delivered to a very precise part of the brain. 5

8 The DBS programmer (e.g. a doctor, nurse practitioner, physician assistant, or other qualified staff member) can adjust a variety of electrical parameters or settings to control the amount of stimulation provided. These adjustments are referred to as programming the DBS system. The adjustments allow the clinician to maximize the benefits and minimize the side effects. This adjustability is a benefit of DBS that is not available with pallidotomy, thalamotomy, or subthalamotomy. The reasons many patients cite for choosing DBS over a lesioning procedure include: the device can be programmed and reprogrammed for symptoms and symptom changes; the procedure can be performed safely on both sides of the brain; and the procedure is reversible. This book was designed as a practical guide to explain the complete process required for patients and families considering DBS therapy. The content describes everything from the decision to have surgery and the day of surgery to surgical recovery and DBS programming. While the information contained in this book is intended to facilitate a discussion of DBS with family, friends, and health care team members, it is not meant to replace the advice of expert health care professionals involved in your care. 6

9 If you are considering DBS: Consult with a movement disorders specialist. A movement disorders specialist is a neurologist who has completed specialized training in PD and movement disorders, usually through a one to two year fellowship (make sure you ask for credentials). There are also neurologists in practice who have become experts in this area through their experience caring for many patients, and by taking continuing medical education courses. Do your homework. Learn all you can about DBS and call the centers you are considering and ask questions about the care they provide. Make sure that you choose a DBS center with an interdisciplinary team of health care professionals. These professionals should have the training, technology, and expertise required to provide specialized and expert DBS therapy. Make sure the interdisciplinary team has an interdisciplinary team meeting where your case will be discussed by everyone who evaluated you (prior to any surgery). This type of collaboration is considered an essential element to the success of this procedure. Be prepared to invest a significant amount of time, energy, and travel for both pre-and post-operative appointments. A published survey conducted by the DBS Society (Stereotactic and Functional Neurosurgery, 2005) revealed the need for a significant number of post-operative visits for both DBS programming and medication adjustments. These visits are most frequent during the first 6 months following implantation, and many experienced centers require monthly visits for the first six months. Undergoing DBS therapy requires a large emotional, physical, and possibly financial commitment depending on your insurance status. These are all important factors to consider before an operation. Make sure to ask who will be programming the deep brain stimulator, and what kind of follow-up you can expect. 7

10 Chapter 2 An Overview of Deep Brain Stimulation (DBS) Therapy The last 5 years before Sam had his brain surgery were very hard. I had to help Sam with everything including getting dressed, getting out of bed, taking a bath; it was emotionally draining. The joy was taken out of our lives. I felt more like a nurse than a wife. We almost never socialized as it was just too difficult. He is like a new man since having the surgery. He can do almost everything for himself now. He doesn t need his walker anymore, and I only need to help him get dressed in the morning before his medication starts working. We aren t afraid to go out to dinner or shopping because he doesn t shake as badly and he doesn t get stuck or frozen. The surgery gave us both back our independence and our marriage; life is good again, we are truly blessed and grateful. - Barabara Deep brain stimulation (DBS) is a surgical therapy used for the treatment of Parkinson disease (PD). During DBS surgery, a special wire, called a lead, is inserted into a specific area of the brain. The lead, which has four electrodes, delivers electrical currents to precise brain locations responsible for movement, regulating the abnormal brain cell activity that causes symptoms such as tremor and gait problems. It is important to keep in mind that DBS can only help relieve the symptoms of Parkinson s, but it does not cure or stop its progression. Modern DBS was developed in France in 1987 by professor and neurosurgeon Dr. Alim-Louis Benabid. His procedure was the culmination of many decades of research from many talented researchers who studied the electric brain. With advances in technology and surgical practices the therapy has continued to improve. DBS was first approved by the Food and Drug Administration in the United States in 1997, and is now considered a safe and effective treatment for carefully selected patients with PD. DBS however, is not for everyone, and though patients like Sam have greatly benefited, the current technology has fallen short in helping most patients to regain walking, talking, and thinking functions. How DBS works Though we do not currently fully grasp the mechanisms underpinning DBS, we have over the last two decades uncovered many important clues. Understanding DBS and how it may work to suppress symptoms requires a basic understanding of brain function. The brain is a complex organ with billions of cells and cell connections called synapses. These cells are connected to each other by axons or pipes that send messages back and forth. Communication is facilitated through a series of circuits that are organized to sort and process information. The connections in the brain circuits are similar to the electrical wiring in your house or car. If one circuit malfunctions, it can disrupt the entire system. Research has shown that in PD there are faulty signals in several brain 8

11 circuits. These faulty or disruptive signals seem to underpin many of the symptoms of PD (e.g. slowed movement, tremor, and stiffness). When electricity is introduced into the circuit it disrupts the disruption and in some magical way restores order, and improves disabling symptoms. The electric current is thought to inhibit cell firing, excite the axons (the pipes), and release a chemical called calcium from brain cells called astrocytes. Calcium seems to trigger a series of reactions that lead to the release of chemicals called neurotransmitters and the stimulation of blood flow. This symphony of changes elicited by electrical stimulation in some unknown way acts to combat the symptoms of PD. In PD, there is an area of the brain called the substantia nigra pars compacta (SNc) where electrical signals are not processed normally. In this region, there are over 400,000 dopamine-producing brain cells. Over time, these brain cells can become injured and slowly die. This process reduces the natural production of dopamine, and this loss of dopamine heavily influences the appearance of PD symptoms. The SNc has connections to important areas of the brain that control both motor and non-motor functions. Two important interconnections are with the globus pallidus internus (GPi), and the subthalamic nucleus (STN). These are critical brain areas that send signals affecting the movement of your arms, legs, neck, as well as other functions (e.g. thinking and mood). By placing DBS leads in either the GPi or the STN, the transmission of electrical signals through these areas can be altered, and, in most cases, this results in smoother and more fluid movement. Small areas within the GPi and STN have been shown to be powerful DBS targets especially to address the symptoms of tremor, rigidity, bradykinesia, motor fluctuations, and dyskinesia. Location of DBS target areas and substantia nigra (SN) DBS may be placed in many other brain locations and has been used in many other neurological disorders. Occasionally, the ventralis intermediate nucleus of the thalamus (Vim) is also targeted for treatment. A DBS lead in this area can result in an impressive reduction in arm tremor. In most cases, however, it does not improve lower extremity tremor, rigidity, bradykinesia, or dyskinesia. Vim is, therefore, the preferred site for another condition known as essential tremor. 9

12 The following table summarizes the three different sites for DBS therapy. DBS site Thalamus (Vim) Globus pallidus (Gpi) Subthalamic nucleus (STN) Effect of Therapy Reduces tremor but not the other symptoms of PD Reduces tremor, rigidity, bradykinesia, gait problems, dyskinesia Reduces tremor, rigidity, bradykinesia, gait problems, dyskinesia DBS surgery See Chapter 6 for details about what happens during DBS surgery In DBS surgery, leads (wires with tiny electrodes) are implanted within a small and specific target area in the brain. Depending on the case, the target will be the STN, GPi, or Vim. STN or GPi are the preferred targets for improving most PD symptoms. Leads may be placed on one side of the brain (unilaterally) or on both sides (bilaterally). Once the lead is placed, it is attached to a wire that runs under the scalp and just beneath the skin of the neck. It is then connected to a pulse generator, or neurostimulator. The neurostimulator is located just below the collarbone and under the skin of the chest. Similar to a pacemaker, the pulse generator delivers electricity to the lead that is implanted in the brain. The pulse generator can either be a single-chamber (connects only one lead) or dual-chamber (connects two leads). The pulse generator is turned on and off by a remote control similar to the ones used for televisions. The DBS programmer can adjust the DBS settings to one of thousands of combinations to achieve optimal symptomatic improvement. Dual chamber battery with bilateral DBS leads (, Activa PC or Activa RC ) Bilateral single chamber batteries with bilateral DBS leads (Activa SC ) (Images courtesy of Medtronic Inc.) 10

13 Following DBS activation, the lead and the electricity it emits will work to normalize the brain signals in the affected circuits. Most people with DBS report experiencing a smoother response to medication, more on time, and improvements in dyskinesia, tremor, and rigidity. Following DBS therapy some patients will require less help from their family and friends and they will achieve more independence in their daily lives. It is important, however, to keep in mind that DBS does not replace the caregiver, does not return most patients to work, and will not, in most cases, allow patients to return to complex activities such as golfing. DBS devices Several components make up the DBS system, and the current FDA approval is for a device manufactured by Medtronic under the brand name of Activa Parkinson s Control Therapy. First, the DBS lead (thin wire), which has four electrode contacts, is implanted in, or as close as possible, to the intended brain target area (e.g. STN or GPi). The wire is just over a millimeter in diameter and is about the size of a thin wire used for hanging pictures. DBS leads model 3387 and 3389 (Image courtesy Medtronic Inc.) Next, the connecting wire is attached to the brain electrode and then to the pulse generator, which is also called an implantable pulse generator (IPG) or neurostimulator. DBS lead, connecting wire and IPG Activa RC (Image courtesy of Medtronic Inc.) 11

14 The IPG supplies electricity through the connecting wire to the four electrode contacts on the DBS lead. The IPG is typically placed in the chest, but can in rare circumstances be placed in the abdomen. Currently, there are three types of IPGs: 1. Activa SC controls one brain lead for unilateral stimulation. Patient programmer is digital and allows for up to 4 group DBS that patient can change between. Can also allow for some patient self-adjustment within certain parameters provided by DBS programmer. 2. Activa PC controls two brain leads for bilateral stimulation. Patient programmer is digital and allows for up to 4 group DBS that patient can change between. Can also allow for some patient self-adjustment within certain parameters provided by DBS programmer. Image courtesy of Medtronic Inc. Image courtesy of Medtronic Inc. 3. Activa RC controls two brain leads for bilateral stimulation. Patient programmer is digital and allows for up to 4 group DBS that patient can change between. Can also allow for some patient self-adjustment within certain parameters provided by DBS programmer. This device is rechargeable and can last up to six to nine years. Image courtesy of Medtronic Inc. Image courtesy of Medtronic Inc. Image courtesy of Medtronic Inc. Image courtesy of Medtronic Inc. The IPG is adjusted with the N vision programmer, a device that communicates through the use of radio waves, which can regulate the electricity delivered to the electrodes. Programming is performed by holding the programmer over the IPG (i.e. over the chest or abdomen) N vision programmer Image courtesy Medtronic, Inc. Finally, the last part of the system is one that is not implanted into the body. It is the patient controller. The Activa SC/PC/RC all use the same remote. This controller allows the patient to turn the IPG on and off and to check the battery status. This controller also allows the patient to self adjust within parameters provided by the DBS programmer. 12

15 DBS: Questions and Answers Q: Is DBS a cure for Parkinson disease (PD)? A: No, DBS is not a cure for PD. It is a treatment that helps relieve the motor symptoms, as well as some of the non-motor symptoms of PD. It is called a symptomatic therapy and it does not change disease progression. Q: What symptoms does DBS help? A: DBS can help to improve the motor symptoms of PD. Typically, these are: Tremor, or shaking (in 80% of sufferers). Complete or partial tremor suppression Rigidity, or stiffness Bradykinesia, or slowness of movement DBS is a powerful therapy for addressing the motor complications of PD, which are often related to medication (e.g. Sinemet and agonists): Dyskinesia, or involuntary, irregular, writhing movement. This movement can range from mild to violent and can sometimes be unpredictable. Dyskinesia can be particularly severe when medications are at peak levels. Dystonia, or sustained, involuntary contraction of muscles can lead to painful cramping of the feet or hands, curling toes, or turning and twisting of the neck. Dystonia can also in select cases be a side-effect of medications. On/off fluctuations, when a person cycles between on time, when the medication is working to control symptoms, and off time, when medication has worn off and PD symptoms return. DBS is helpful in addressing symptoms that respond to dopaminergic medication (e.g. Sinemet, Madopar, agonists). DBS will usually temper the degree of fluctuations experienced during on and off periods. DBS will not address dopaminergic unresponsive symptoms such as walking, talking and thinking issues. DBS will, however, address medication unresponsive tremor. DBS can also improve some non-motor symptoms, including: Mood Energy level General sense of well-being As a general rule, symptoms that are helped by medication will be improved by DBS. 13

16 Q: Is it better to have DBS on one side of the brain, or both sides? A: DBS on one side of the brain mainly helps symptoms on the opposite side of the body. Placing two leads can, in some cases, provide incremental improvement in motor function especially if patients have significant symptoms on both sides of the body. Two leads will also, in some select patients, improve walking, although walking often becomes resistant to medications and to DBS over time. For patients whose symptoms are mainly affecting one side of the body, DBS surgery on the opposite side of the brain may be sufficient. New research has suggested that one third or more of patients with PD may actually do well long-term with a single sided DBS lead (Journal of Neurosurgery, 2009). Many expert centers will implant a single DBS lead, optimize DBS settings and medications, and in a follow-up visit re-evaluate the need for a second DBS. A single DBS lead carries half the surgical and post-surgical risk for complications. Q: How long do the benefits of DBS last? A: The duration of DBS benefits varies from patient to patient but in the majority of cases it lasts many years. Patients have now been followed for 10 or more years with DBS, and the general rule has been that if the symptoms still respond to dopaminergic medications, then DBS will continue to work. DBS also will continue to work long-term in terms of tremor and dyskinesia. DBS settings are rarely changed much after the first year of therapy, and patients should be educated that once settings are optimized, most of the changes will be made to the medication regimen. Q: How do I know if I am a good candidate for DBS? A: Movement disorders neurologists are experts in PD and its treatments. They should be consulted to help you determine if DBS is the right choice for you. Keep in mind that an expert neurologist may be able to improve PD symptoms such that DBS is not necessary, or could be delayed for several years. DBS is, in general, not helpful and could be harmful when applied to other conditions that can mimic PD, such as Lewy body disease, progressive supranuclear palsy, multiple system atrophy, and corticobasal degeneration. A movement disorders specialist is the best resource for confirming that you have PD before you have surgery. The best candidates for DBS therapy will meet most of the following criteria: You have had PD symptoms for at least five years. You have on/off fluctuations, with or without dyskinesia. You continue to have a good response to PD medications, especially carbidopa/ levodopa (though the duration of response may be insufficient). You have tried different combinations of levodopa/carbidopa and dopamine agonists under the supervision of a movement disorder neurologist or specialist. You have tried other PD medications, such as entacapone, tolcapone, selegiline, apomorphine or amantadine without beneficial results. You have PD symptoms that interfere with daily activities. 14

17 Not all patients are good candidates for DBS therapy. DBS is generally not appropriate for people who: Have as the main disabling symptom trouble with balance, walking, or freezing that is not helped by PD medication. Have as the primary disabling symptom trouble with speech that is not helped with PD medications. Have confusion, disorientation, and/or difficulties with memory and thinking on a daily basis. Have depression, anxiety, or another psychiatric illness that has not improved or has been stabilized with proper therapy such as medication and counseling. Have a questionable PD diagnosis. Have another serious health condition, such as severe heart or lung disease. Q: Will I be able to stop taking my PD medications after I have DBS? A: DBS is not a substitute for medication therapy. After the DBS system has been optimized through programming, the neurologist or nurse may attempt to gradually lower medication doses. Although most patients will need to remain on medications after DBS surgery, many will be able lower their total daily dose by 30 to 50%. Many will also be able to spread out the intervals that they take medications. Rarely will a patient be able to stop medications completely. Those who are able to stop taking medications will probably need to restart them later in their disease, as more symptoms emerge over time. There is, in general, more medication reduction with STN DBS when compared to GPi DBS. There is also more medication reduction with two implanted leads when compared to one. It is important that patients understand that medication reduction following DBS is not a guarantee and should not be a goal of surgery, rather the patient should consider the right marriage between medication usage and DBS therapy. Q: What if DBS doesn t work? A: It is possible that DBS therapy will not help, and this condition has been referred to as DBS failure(s).there are many reasons for DBS failures and most are preventable. These reasons include improper selection, problems with the surgery (suboptimal lead placement or hardware dysfunction), problems with programming, problems with medication management, or disease progression. If you have not improved 6 months following your DBS surgery, you should discuss with your doctor the possibility of a complete workup to search for a correctable cause of the DBS failure. For the best possible results, it is extremely important to choose a center with a neurosurgeon, movement disorders neurologist, and health care team that are trained and experienced in DBS therapy. Make sure you go to an experienced movement disorders neurologist to assess whether or not you are a good candidate prior to surgery. 15

18 Q: Are there activities that I need to avoid following DBS therapy? A: Generally, you can return to normal daily functioning within a few months of the DBS surgery. Always check with your neurologist for specific instructions. It is best to avoid neck manipulation, massage, or other direct physical contact with the implanted devices. Also avoid climbing, reaching for objects above head level, and working on the roofs of houses and buildings. Swimming and sporting events are generally okay, as long as there is no contact with the device. Q: Can I exercise after having DBS? A: Yes, most PD patients return to low-impact exercise within 4 to 6 weeks following DBS surgery. Contact sports or exercise that poses a risk of physically striking the neurostimulator or the connecting wire should be avoided. Exercise is like medication in that it should be considered an integral part of treatment for PD. We encourage all patients pre- and post-dbs to exercise daily. Q: Are there some electrical devices I should avoid? A: Most basic household and garden electrical devices are safe to use and contact and these include microwaves, radios, and computers. Certain medical devices and possibly some high power industrial machinery can be dangerous. Diathermy, a deep heat treatment administered by some health care providers, is dangerous and should never be performed in patients with existing DBS. Total body coil MRI (magnetic resonance imaging that is used to image the body) can be dangerous to the patient with DBS; note that MRI scanning of the brain can be performed, as long as proper safety precautions have been followed. An MRI must be performed with a head-receive coil, and under strict guidelines and supervision. You cannot have an MRI below the head. Before having any medical procedure that may interfere with the DBS device, check with your medical team or the manufacturer of your DBS equipment. See Chapter 9 for more information about electrical devices and DBS therapy. Q: How long will the battery last? What should I do when it stops working? A: The battery usually lasts between 2 and 5 years. The battery life varies depending on the settings needed to control your symptoms. The Activa RC is a rechargeable IPG and will last up to 9 years. Your DBS programmer should periodically check the battery life and inform you as to when the neurostimulator needs to be replaced. Devices such as the Access Review can also be used to check your battery. When the battery life is approximately 10% or less, it is recommended that the battery be replaced. We generally recommend preemptive replacement of batteries before they fail. This replacement can be done as an outpatient procedure. Once battery power is depleted, your symptoms will likely worsen and more medication than usual may be needed until the neurostimulator is replaced. A good rule of thumb is to have the battery life checked at every visit and to have a proactive plan for replacement. 16

19 Q: Can the DBS stop working suddenly, after working for several months or years? A: Yes, malfunctions can occur, and they usually happen as a result of one of two reasons: either the battery power has been depleted, or the hardware in the device is malfunctioning. For example, there could be a break in the connecting wire in the neck or scalp. Do not push on the device in your chest or twist it, as this can lead to fractures of the wires. If your PD symptoms suddenly worsen, contact your treating neurologist or neurosurgeon immediately, as there may be a problem with the DBS system. Q: If a cure or new treatment for PD is found, can I have the DBS system removed? A: Yes. DBS is removable and reversible. You can have the leads and neurostimulator taken out. You can try any new FDA-approved symptomatic treatment or cure if it becomes available. Rarely over the last decade have we encountered patients wishing to have their hardware removed. Q: How expensive is DBS? Will my insurance cover the costs? A: Each DBS surgery can cost between $35,000 and $50,000 and upwards of $70,000 to $100,000 for bilateral procedures. These estimates include the cost of the surgery, devices, anesthesia, hospital fees, and physician fees. The type and amount of health care insurance you have will affect the overall cost. Since DBS is approved by the Food and Drug Administration for the treatment of PD, Medicare and most private insurance carriers will cover most, if not all, of the costs of the operation. Your personal insurance policy will specify DBS coverage. If you are worried about cost, ask the neurosurgeon to meet with his or her financial counselor so that you and your family will know what to expect. 17

20 Key points about DBS DBS has been proven to be a safe effective therapy for a group of well selected patients with PD. DBS therapy is not a cure for PD, but is a powerful symptomatic treatment. DBS is not a substitute for medications, and most patients will not stop medications after the procedure. DBS can improve the motor symptoms of PD, including tremor, rigidity, and bradykinesia; it can also help improve dyskinesia, dystonia, and motor fluctuations. As a rule, DBS will be effective against the symptoms that improve with medication. Unilateral or bilateral leads may be placed in one of three brain regions: Globus pallidus internus (GPi): Effective for tremor, rigidity, bradykinesia, motor fluctuations, and/or dyskinesia and dystonia. Subthalamic nucleus (STN): Effective for tremor, rigidity, bradykinesia, motor fluctuations, and/or dyskinesia and dystonia. Ventral intermediate nucleus of the thalamus (Vim): Only effective for upper extremity tremor, and inconsistent for lower extremity tremor. The DBS system consists of the lead, connecting wire, implantable pulse generator (IPG), programmer, patient controller, and/or magnet. 18

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Understanding Tremor Christy, diagnosed with essential tremor in childhood, with her husband, Ben. What Is Tremor? A tremor is the repetitive, involuntary, rhythmic trembling of one or more parts of the

Hemorrhagic Stroke GENERAL INFORMATION: What is a hemorrhagic stroke? A hemorrhagic stroke happens when a blood vessel in the brain bursts. This may happen if the blood vessel wall is weak, or sometimes

BEFORE SURGERY What should I do to prepare for my surgery? Arrange for a family member or friend to accompany you to the hospital on the day of your surgery. Cancel any dental appointments that fall within

surgery for parkinson S 1 Although the main treatment for Parkinson s is medication, there are some types of surgery available to treat the symptoms. This booklet gives you an overview of the different

Brain Cancer Introduction Brain tumors are not rare. Thousands of people are diagnosed every year with tumors of the brain and the rest of the nervous system. The diagnosis and treatment of brain tumors

2011 Mild Brain Injury Recovery Mild Brain Injury Recovery What is a mild brain injury? A brain injury is often caused by trauma to the head for any reason. If you had a change in your level of consciousness,

The Spasticity Clinic This booklet can help you learn about: the Spasticity Clinic at McMaster Children s Hospital spasticity and how it may be treated Your therapist will give you more information and

MEDICATION GUIDE PROCRIT (PROKRIT) (epoetin alfa) Read this Medication Guide: before you start PROCRIT. if you are told by your healthcare provider that there is new information about PROCRIT. if you are

Parkinson s Disease (PD) Parkinson s disease (PD) is a movement disorder that worsens over time. About 1 in 100 people older than 60 has Parkinson s. The exact cause of PD is still not known, but research

NeuroStar TMS Therapy Patient Guide for Treating Depression This NeuroStar TMS Therapy Patient Guide for Treating Depression provides important safety and use information for you to consider about treating

What is (NPH)? The brain and spinal cord are surrounded by a clear fluid called cerebrospinal fluid (CSF). This fluid is produced and stored in cavities in the brain called ventricles. It circulates around

Taking Charge of Your Stroke Recovery A SURVIVOR'S GUIDE TO THE CANADIAN STROKE BEST PRACTICE RECOMMENDATIONS BE INFORMED BE INVOLVED TAKE ACTION BE INFORMED BE INVOLVED TAKE ACTION The Canadian Stroke

Delirium Introduction Delirium is a complex symptom where a person becomes confused and shows significant changes in behavior and mental state. Signs of delirium include problems with attention and awareness,

DATE: / / HG SY EH CQ RL AS JZ Name: (Last, First, M.I.) M F DOB: / / Decision Point LOW BACK PAIN: SHOULD I HAVE AN MRI? You may want to have a say in this decision, or you may simply want to follow your

Oxford University Hospitals NHS Trust Department of Neurosciences Dorsal Root Ganglion (DRG) Stimulation Information for patients We have recently seen you in clinic as you have had pain for a long period

ANESTHESIA & YOU Anesthesia for Ambulatory Surgery T oday the majority of patients who undergo surgery or diagnostic tests do not need to stay overnight in the hospital. In most cases, you will be well

THE Lewy Body society The more people who know, the fewer people who suffer Lewy body dementia Referral for a Diagnosis Lewy Body Dementias REFERRAL FOR A DIAGNOSIS In the UK people with all forms of dementia

Lumbar Laminectomy and Interspinous Process Fusion Introduction Low back and leg pain caused by pinched nerves in the back is a common condition that limits your ability to move, walk, and work. This condition

Endoscopic Plantar Fasciotomy Introduction Plantar fasciitis is a common condition that causes pain centralized around the heel. It may be severe enough to affect regular activities. Health care providers

Quality Measures for Long-stay Residents Percent of residents whose need for help with daily activities has increased. This graph shows the percent of residents whose need for help doing basic daily tasks

TM Understanding Depression The Road to Feeling Better Helping Yourself Your Treatment Options A Note for Family Members Understanding Depression Depression is a biological illness. It affects more than

Cerebral Palsy Introduction Cerebral palsy, or CP, can cause serious neurological symptoms in children. Up to 5000 children in the United States are diagnosed with cerebral palsy every year. This reference

Spinal Fusion Royal Devon and Exeter NHS Foundation Trust Patient Information Spinal Fusion Respond Deliver & Enable Introduction You have been scheduled for a procedure known as a lumbar spinal fusion.

Depression in Older Persons How common is depression in later life? Depression affects more than 6.5 million of the 35 million Americans aged 65 or older. Most people in this stage of life with depression

National Hospital for Neurology and Neurosurgery Managing Spasticity Spasticity Service If you would like this document in another language or format, or require the services of an interpreter please contact

Symptoms and lifestyle Wearing off and involuntary movements (dyskinesia) If you have been taking a Parkinson s drug that contains levodopa, for example co-beneldopa or co-careldopa, for some time, you

INSERTABLE CARDIAC MONITORING SYSTEM UNLOCK the ANSWER Your heart and long-term monitoring UNLOCK the ANSWER Irregular heartbeats can be related to a variety of conditions, including unexplained fainting,

Parkinson's Disease Parkinson's Disease is an illness affecting the brain. It gets worse as people who have it get older. Parkinson's Disease happens when certain nerve cells in the brain do not work properly.

Cocaine Introduction Cocaine is a powerful drug that stimulates the brain. People who use it can form a strong addiction. Addiction is when a drug user can t stop taking a drug, even when he or she wants

2012 Living With Your Pacemaker Living With Your Pacemaker The pamphlet will help you learn what your new pacemaker can do for you. The heart s natural pacemaker Your heart s natural pacemaker controls

Understanding Multiple Sclerosis Tim, diagnosed in 2004. What Is Multiple Sclerosis? Multiple sclerosis (MS) is a neurologic disorder that affects the central nervous system (CNS). The CNS includes the

canadian stroke network A Patient s Guide to Canadian Best Practice Recommendations for Stroke Care Canadian Best Practice Recommendations for Stroke Care have been developed by stroke experts across the

Plantar Fascia Release Introduction Plantar fasciitis is a common condition that causes pain around the heel. It may be severe enough to affect regular activities. If other treatments are unsuccessful,

X-Plain Preparing For Surgery Reference Summary Introduction More than 25 million surgical procedures are performed each year in the US. This reference summary will help you prepare for surgery. By understanding

NEUROPSYCHOLOGY QUESTIONNAIRE (Please fill this out prior to your appointment and bring it with you.) Name: Date of appointment: Date of birth: Age: _ Home address: _ Home phone: Cell phone: Work phone:

Cerebral Palsy Introduction Cerebral palsy, or CP, can cause serious neurological symptoms in children. Thousands of children are diagnosed with cerebral palsy every year. This reference summary explains

Incisional, Ventral Hernia Repair Introduction Hernias are common conditions that affect men and women of all ages. Your doctor may have recommended a hernia operation. The decision whether or not to have

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